CN113089220A

CN113089220A - Printing and dyeing process of polyester blended fabric

Info

Publication number: CN113089220A
Application number: CN202110379485.XA
Authority: CN
Inventors: 李超
Original assignee: Individual
Current assignee: Shanghai Jingsheng Printing And Dyeing Co ltd
Priority date: 2021-04-08
Filing date: 2021-04-08
Publication date: 2021-07-09
Anticipated expiration: 2041-04-08
Also published as: CN113089220B

Abstract

The invention provides a printing and dyeing process of a polyester blended fabric, which comprises the operation completed by matching a dyeing frame, a linkage type clamping device, a rotating column, a moving block and an extrusion device.

Description

Printing and dyeing process of polyester blended fabric

Technical Field

The invention relates to the technical field of fabric printing and dyeing, in particular to a printing and dyeing process of a polyester blended fabric.

Background

The general blended fabric is characterized in that the raw materials for forming the fabric are two or more different types of fibers, the raw materials are generally prepared by mixing and spinning chemical fibers such as terylene, polyester-cotton and the like and natural fibers such as other cotton, silk, hemp and the like, the raw materials are not fixed, and the textile prepared by mixing the terylene and the other natural fibers is called terylene blending, the purpose of blending is mostly to reduce the cost of the fabric, and the two or more different types of fibers are combined, so that different and different requirements of people can be met in wearing, and the fabric is more comfortable to wear in different occasions.

In the dyeing process of the polyester blended fabric, the polyester blended fabric needs to be dyed, the traditional dyeing method usually puts the fabric into a dyeing barrel and then stirs the fabric, so that the purpose of quick coloring is achieved, however, in actual operation, some problems are often encountered:

1. in the stirring process, a plurality of fabrics are put into a barrel together for stirring, the contact parts of the adjacent fabrics are difficult to permeate and color in a short time due to the obstruction of the fabrics, and the fabrics are not completely colored after the coloring of other areas is finished;

2. in traditional stirring process, because the inside resistance of dye liquor, when the stirring thing stirring surface fabric appeared easily, the surface fabric was difficult to effectively follow the stirring thing under the resistance of dye liquor to lead to the condition of surface fabric deformation.

Disclosure of Invention

In order to solve the problems, the invention provides a printing and dyeing process of a terylene blended fabric, which can solve the problems that in the stirring process, a plurality of fabrics are put into a barrel together for stirring, the contact parts of adjacent fabrics are difficult to permeate and color in a short time due to the obstruction of the fabrics, the fabric is still not completely colored after the coloring of other areas is finished, in the traditional stirring process, the fabric is difficult to effectively follow the stirring objects under the resistance of the dyeing liquid when the stirring objects stir the fabric due to the resistance inside the dyeing liquid, so that the fabric is deformed, and the like.

In order to achieve the purpose, the invention adopts the following technical scheme that a dyeing device is used in the dyeing process of the polyester blended fabric, the dyeing device comprises a dyeing frame, a linkage type clamping device, a rotating column, a moving block and an extrusion device, and the dyeing process of the polyester blended fabric by adopting the dyeing device is as follows:

s1, blowing: carrying out air blowing treatment on the polyester blended fabric to loosen the texture on the polyester blended fabric;

s2, clamping: performing multi-station clamping on the polyester blended fabric through a clamping mechanism;

s3, dyeing: the clamped terylene blending fabric is driven to descend through the connecting air cylinder so as to be soaked and dyed, in the descending process, the clamped terylene blending fabric is intermittently tightened in dye liquor under the extrusion of the extrusion block, and meanwhile, the engagement of the rack plate and the gear is matched so as to drive the rotating column to rotate and further drive the moving block to move reversely, and the terylene blending fabric is extruded in all directions through the telescopic mechanism so as to be beneficial to the permeation of the dye liquor;

s4, color fixing: soaking the dyed terylene blended fabric in clear water for 10-15 seconds, putting the terylene blended fabric into a tank with salt water, diluting salt by 2-3 times of water, simultaneously adding salt into the salt water tank for multiple times, wherein the salt is separated by 5-7 minutes every time, the temperature is kept at 40-60 ℃, the soaking time is 10-20 minutes, and finally, horizontally fishing out the terylene blended fabric, passing through the clear water and drying the terylene blended fabric.

Linkage type clamping devices are symmetrically installed at the left end and the right end of the dyeing frame, the lower end of the dyeing frame is connected with the rotating column through a sealing bearing, moving blocks are symmetrically arranged at the left end and the right end of the rotating column, the moving blocks are connected with the dyeing frame in a sliding fit mode, and extrusion devices are evenly installed on the moving blocks from the front to the back.

Coordinated type clamping device including connecting the cylinder, the connecting plate, fixture, the rack board, the gear, the connecting axle, link gear and extrusion piece, the upper end of dyeing frame has been seted up and has been hidden the groove, hide and install on the groove and connect the cylinder, connect and install the connecting plate on the ejecting end of cylinder, the inboard lower extreme of connecting plate is provided with fixture, the rack board is installed to the outside lower extreme of connecting plate, the rack board meshes with the gear mutually, the gear is installed on the connecting axle, the connecting axle is connected for the bearing with dyeing frame, be connected with link gear between connecting axle and the rotation post, install the extrusion piece on the inside wall of dyeing frame.

Fixture include L type frame, the sliding block, built-in spring, the fifth wheel, the centre gripping branch chain, the sliding plate, support the piece, the screw thread post, the sliding block is installed to the upper end of L type frame, the sliding block is connected for sliding fit with the connecting plate, and be connected with built-in spring between sliding block and the connecting plate, install the fifth wheel on the lateral wall of L type frame, evenly be provided with the centre gripping branch chain on the inside wall of L type frame, the sliding tray has been seted up to the inside of L type frame, the sliding tray is connected for sliding fit with the sliding plate, the front end of sliding plate is connected for the bearing with the rear end of screw thread post, the screw thread post is connected for screw-thread fit with L type frame.

During the centre gripping, thereby rotate the screw thread post and drive the sliding plate, support the piece and move forward, press from both sides the separation with the activity, later, promote the activity forward and press from both sides, put into dacron blending surface fabric between fixation clamp, activity clamp, to dacron blending surface fabric centre gripping around the elasticity of telescopic link resets, later, thereby the reverse rotation screw thread post drives the sliding plate, supports the piece and moves backward, further supports the activity through supporting the piece and press from both sides, plays the effect of dual centre gripping.

During dip dyeing: through connecting the dacron blending fabric decline after the cylinder drives the centre gripping, the decline in-process, under the elastic connection of built-in spring and under the extrusion of extrusion piece to the fifth wheel, intermittent type formula motion about L type frame is, thereby neglect the lax and neglect the tightness to the dacron blending fabric of centre gripping, the inside back of being mixxed of dye liquor, and then accelerate with the infiltration of dacron blending fabric, meanwhile, the cooperation rack plate, thereby the meshing of gear drives the rotation post and rotates, and then drive movable block reverse motion, carry out all-round extrusion to dacron blending fabric through telescopic machanism, do benefit to the infiltration of dye liquor.

The extrusion device include spliced pole, telescopic machanism, be connected for the bearing between the lower extreme of spliced pole and the movable block, the spliced pole is from last to down evenly being provided with telescopic machanism, during concrete work, moves about the spliced pole through the movable block drive that removes, extrudees the surface fabric two sides through the contact plate that outwards stretches out all the time, makes things convenient for the infiltration of dye liquor.

The clamping branched chain comprises a fixed clamp, a telescopic rod and a movable clamp, the fixed clamp is installed on the L-shaped frame, the telescopic rod is connected between the fixed clamp and the movable clamp, and the fixed clamp and the movable clamp are of a grid structure.

Wherein, the inside wall of extrusion piece on be the wavy structure, and the fifth wheel is laminated with the inside wall of extrusion piece.

The linkage mechanism comprises a first spool, a second spool and a belt, the first spool is arranged on the connecting shaft, the belt is connected between the first spool and the second spool, and the second spool is arranged on the end face of the rotating column.

The rotating column is provided with two sections of threads, the directions of the two sections of threads are opposite, and each section of thread is provided with a moving block.

The telescopic mechanism comprises an inlet and outlet rod, a reset spring and a contact plate, an inlet and outlet groove is uniformly formed in the connecting column along the circumferential direction of the connecting column, the inlet and outlet groove is connected with the inlet and outlet rod in a sliding fit mode, the reset spring is connected between the inlet and outlet groove and the inlet and outlet rod, the contact plate is installed at the outer end of the inlet and outlet rod, and the contact plate is of an arc-shaped structure.

The invention has the beneficial effects that:

according to the printing and dyeing process of the polyester blended fabric, the fabric is subjected to multi-station separated clamping, so that the fabric is not contacted as much as possible in the dyeing process, and meanwhile, the flow of the dye liquor and the extrusion of the extrusion device are matched, so that the permeation efficiency between the dye liquor and the fabric is accelerated, and meanwhile, when the telescopic mechanism is extruded with the relatively flat fabric, the condition that the fabric is pulled by the telescopic mechanism due to the resistance of the dye liquor to cause deformation is avoided, and the qualified rate is improved;

the linkage type clamping device adopts a structural linkage design concept, the stretching degree of the fabric is slightly tight while the fabric is clamped, and the fabric is matched with the flow of dye liquor, so that the permeability is accelerated, and meanwhile, the rotating column is driven to rotate under the matching of a gear rack belt, so that the extrusion device is driven to extrude the two sides of the flat fabric, and the adsorption and permeation of the fabric to the dye liquor are facilitated.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of a printing and dyeing process of a polyester blended fabric;

FIG. 2 is a schematic view of a first configuration of the present invention;

FIG. 3 is a second schematic structural view of the present invention;

FIG. 4 is a cross-sectional view of the present invention;

FIG. 5 is a cross-sectional view (from above looking down) of the extrusion apparatus of the present invention;

FIG. 6 is a cross-sectional view (from above) of the clamping mechanism of the present invention;

FIG. 7 is a schematic view of the configuration of the extrusion apparatus of the present invention;

FIG. 8 is an enlarged view of a portion of the invention at X of FIG. 4;

fig. 9 is a partial enlarged view of the invention at Y of fig. 4.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 9, a dyeing process for a polyester blended fabric uses a dyeing device, the dyeing device comprises a dyeing frame 1, a linkage type clamping device 2, a rotating column 3, a moving block 4 and an extrusion device 5, and the dyeing process for the polyester blended fabric by using the dyeing device comprises the following steps:

s2, clamping: performing multi-station clamping on the polyester blended fabric through a clamping mechanism 23;

s3, dyeing: the clamped terylene blended fabric is driven to descend by the connecting cylinder 21 so as to be soaked and dyed, in the descending process, under the extrusion of the extrusion block 28, the clamped terylene blended fabric is intermittently tightened in the dye solution, and simultaneously, the engagement of the rack plate 24 and the gear 25 is matched so as to drive the rotating column 3 to rotate and further drive the moving block 4 to move reversely, and the terylene blended fabric is extruded in all directions by the telescopic mechanism 52, so that the permeation of the dye solution is facilitated;

Linkage type clamping devices 2 are symmetrically installed at the left end and the right end of a dyeing frame 1, the lower end of the dyeing frame 1 is connected with a rotating column 3 through a sealing bearing, moving blocks 4 are symmetrically arranged at the left end and the right end of the rotating column 3, the moving blocks 4 are connected with the dyeing frame 1 in a sliding fit mode, and extrusion devices 5 are evenly installed on the moving blocks 4 from front to back.

Linkage type clamping device 2 including connecting cylinder 21, connecting plate 22, fixture 23, rack plate 24, gear 25, connecting axle 26, link gear 27 and extrusion piece 28, the upper end of dyeing frame 1 has been seted up and has been hidden the groove, hide and install on the groove and connect cylinder 21, connect and install connecting plate 22 on the ejecting end of cylinder 21, the inboard lower extreme of connecting plate 22 is provided with fixture 23, rack plate 24 is installed to the outside lower extreme of connecting plate 22, rack plate 24 meshes with gear 25 mutually, gear 25 installs on connecting axle 26, connecting axle 26 is connected for the bearing with dyeing frame 1, be connected with link gear 27 between connecting axle 26 and the rotation post 3, install extrusion piece 28 on the inside wall of dyeing frame 1.

The clamping mechanism 23 comprises an L-shaped frame 231, a sliding block 232, an internal spring 233, a connecting wheel 234, a clamping branched chain 235, a sliding plate 236, an abutting block 237 and a threaded column 238, the sliding block 232 is arranged at the upper end of the L-shaped frame 231, the sliding block 232 is connected with the connecting plate 22 in a sliding fit manner, and a built-in spring 233 is connected between the sliding block 232 and the connecting plate 22, a connecting wheel 234 is installed on the outer side wall of the L-shaped frame 231, a clamping branched chain 235 is uniformly arranged on the inner side wall of the L-shaped frame 231, a sliding groove is formed in the L-shaped frame 231, the sliding groove is connected with the sliding plate 236 in a sliding fit manner, the front end of the sliding plate 236 is connected with the rear end of a threaded column 238 through a bearing, the threaded column 238 is connected with the L-shaped frame 231 in a threaded fit manner, a resisting block 237 is uniformly installed on the sliding plate 236, the inner side wall of the extrusion block 28 is of a wavy structure, and the connecting wheel 234 is attached to the inner side wall of the extrusion block 28.

During clamping, the threaded column 238 is rotated to drive the sliding plate 236 and the abutting block 237 to move forwards and separate from the movable clamp 2353, then the movable clamp 2353 is pushed forwards, the polyester blended fabric is placed between the fixed clamp 2351 and the movable clamp 2353, the polyester blended fabric is clamped forwards and backwards under the elastic reset of the telescopic rod 2352, then the threaded column 238 is rotated reversely to drive the sliding plate 236 and the abutting block 237 to move backwards, and the movable clamp 2353 is further abutted through the abutting block 237, so that a double clamping effect is achieved.

During dip dyeing: through connecting the dacron blending fabric decline after cylinder 21 drives the centre gripping, the decline in-process, under the elastic connection of built-in spring 233 and under the extrusion of extrusion piece 28 to fifth wheel 234, intermittent type formula motion about L type frame 231 is, thereby the dacron blending fabric to the centre gripping is neglected and neglected tightly, the inside back of being mixxed of dye liquor, and then accelerate the infiltration with dacron blending fabric, meanwhile, thereby cooperation rack plate 24, thereby the meshing of gear 25 drives rotation post 3 and rotates, and then drive movable block 4 reverse motion, carry out all-round extrusion to dacron blending fabric through telescopic machanism 52, do benefit to the infiltration of dye liquor.

The clamping branched chain 235 comprises a fixing clamp 2351, a telescopic rod 2352 and a movable clamp 2353, wherein the fixing clamp 2351 is installed on the L-shaped frame 231, the telescopic rod 2352 is connected between the fixing clamp 2351 and the movable clamp 2353, the telescopic rod 2352 plays a role in resetting, the fixing clamp 2351 and the movable clamp 2353 are of a grid structure, and a part of clamped fabric can be still dyed.

The linkage mechanism 27 comprises a first spool 271, a second spool 272 and a belt 273, the first spool 271 is mounted on the connecting shaft 26, the belt 273 is connected between the first spool 271 and the second spool 272, the second spool 272 is mounted on the end surface of the rotating column 3, and the first spool 271 and the second spool 272 are driven to rotate in the same direction through the belt 273.

Two sections of threads are formed in the rotating column 3, the direction of the two sections of threads is opposite, and a moving block 4 is arranged on each section of thread, so that the moving blocks 4 arranged on the left and the right move oppositely or oppositely.

Extrusion device 5 include spliced pole 51, telescopic machanism 52, be connected for the bearing between spliced pole 51's lower extreme and the movable block 4, spliced pole 51 is from last down evenly being provided with telescopic machanism 52, and during concrete work, the movable block 4 through the removal drives spliced pole 51 and removes, extrudees the surface fabric two sides through contact plate 523 that outwards stretches out all the time, makes things convenient for the infiltration of dye liquor.

The telescopic mechanism 52 comprises an inlet and outlet rod 521, a return spring 522 and a contact plate 523, an inlet and outlet groove is uniformly formed in the connecting column 51 along the circumferential direction of the connecting column, the inlet and outlet groove is connected with the inlet and outlet rod 521 in a sliding fit manner, the return spring 522 is connected between the inlet and outlet groove and the inlet and outlet rod 521, the return spring 522 plays a role in elastic expansion, the contact plate 523 is installed at the outer end of the inlet and outlet rod 521, and the contact plate 523 is of an arc-shaped structure.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a printing and dyeing technology of dacron blended yarn weaved fabric, its used a dyeing apparatus, this dyeing apparatus is including dyeing frame (1), coordinated type clamping device (2), rotation post (3), movable block (4) and extrusion device (5), its characterized in that: the dyeing process of the polyester blended fabric by adopting the dyeing equipment comprises the following steps:

s2, clamping: the terylene blended fabric is clamped at multiple stations by a clamping mechanism (23);

s3, dyeing: the clamped terylene blended fabric is driven to descend by the connecting cylinder (21) so as to be soaked and dyed, in the descending process, the clamped terylene blended fabric is intermittently tightened in dye liquor under the extrusion of the extrusion block (28), and meanwhile, the engagement of the rack plate (24) and the gear (25) is matched so as to drive the rotating column (3) to rotate and further drive the moving block (4) to move reversely, and the terylene blended fabric is extruded in all directions by the telescopic mechanism (52), so that the permeation of the dye liquor is facilitated;

s4, color fixing: soaking the dyed terylene blended fabric in clear water for 10-15 seconds, putting the terylene blended fabric into a tank with salt water, diluting the salt with 2-3 times of water, simultaneously adding the salt into the salt water tank for multiple times, wherein the salt is separated by 5-7 minutes every time, the temperature is kept at 40-60 ℃, the soaking time is 10-20 minutes, and finally, horizontally fishing out the terylene blended fabric, passing the clear water and drying the terylene blended fabric;

linkage type clamping devices (2) are symmetrically installed at the left end and the right end of the dyeing frame (1), the lower end of the dyeing frame (1) is connected with a rotating column (3) through a sealing bearing, moving blocks (4) are symmetrically arranged at the left end and the right end of the rotating column (3), the moving blocks (4) are connected with the dyeing frame (1) in a sliding fit mode, and extrusion devices (5) are uniformly installed on the moving blocks (4) from front to back;

the linkage type clamping device (2) comprises a connecting cylinder (21), a connecting plate (22), a clamping mechanism (23), a rack plate (24), a gear (25), a connecting shaft (26), a linkage mechanism (27) and an extrusion block (28), the upper end of the dyeing frame (1) is provided with a hidden groove, the hidden groove is provided with a connecting cylinder (21), the ejection end of the connecting cylinder (21) is provided with a connecting plate (22), the lower end of the inner side of the connecting plate (22) is provided with a clamping mechanism (23), the lower end of the outer side of the connecting plate (22) is provided with a rack plate (24), the rack plate (24) is meshed with a gear (25), the gear (25) is arranged on a connecting shaft (26), the connecting shaft (26) is connected with the dyeing frame (1) through a bearing, a linkage mechanism (27) is connected between the connecting shaft (26) and a rotating column (3), and the inner side wall of the dyeing frame (1) is provided with an extrusion block (28;

the clamping mechanism (23) comprises an L-shaped frame (231), a sliding block (232), a built-in spring (233), a connecting wheel (234), a clamping branched chain (235), a sliding plate (236), a propping block (237) and a threaded column (238), wherein the sliding block (232) is installed at the upper end of the L-shaped frame (231), the sliding block (232) is connected with a connecting plate (22) in a sliding fit manner, the built-in spring (233) is connected between the sliding block (232) and the connecting plate (22), the connecting wheel (234) is installed on the outer side wall of the L-shaped frame (231), the clamping branched chain (235) is uniformly arranged on the inner side wall of the L-shaped frame (231), a sliding groove is formed in the L-shaped frame (231), the sliding groove is connected with the sliding plate (236) in a sliding fit manner, the front end of the sliding plate (236) is connected with the rear end of the threaded column (238) in a bearing manner, and, the sliding plate (236) is uniformly provided with a propping block (237);

the extrusion device (5) comprises a connecting column (51) and a telescopic mechanism (52), the lower end of the connecting column (51) is connected with the moving block (4) through a bearing, and the telescopic mechanism (52) is uniformly arranged on the connecting column (51) from top to bottom.

2. The printing and dyeing process of the polyester blended fabric according to claim 1, characterized in that: the clamping branched chain (235) comprises a fixed clamp (2351), an expansion link (2352) and a movable clamp (2353), wherein the fixed clamp (2351) is installed on the L-shaped frame (231), the expansion link (2352) is connected between the fixed clamp (2351) and the movable clamp (2353), and the fixed clamp (2351) and the movable clamp (2353) are of a grid structure.

3. The printing and dyeing process of the polyester blended fabric according to claim 1, characterized in that: the inner side wall of the extrusion block (28) is of a wavy structure, and the connecting wheel (234) is attached to the inner side wall of the extrusion block (28).

4. The printing and dyeing process of the polyester blended fabric according to claim 1, characterized in that: the linkage mechanism (27) comprises a first spool (271), a second spool (272) and a belt (273), the first spool (271) is installed on the connecting shaft (26), the belt (273) is connected between the first spool (271) and the second spool (272), and the second spool (272) is installed on the end face of the rotating column (3).

5. The printing and dyeing process of the polyester blended fabric according to claim 1, characterized in that: two sections of threads are arranged on the rotating column (3), the directions of the two sections of threads are opposite, and each section of thread is provided with a moving block (4).

6. The printing and dyeing process of the polyester blended fabric according to claim 1, characterized in that: telescopic machanism (52) including business turn over pole (521), reset spring (522) and contact plate (523), evenly seted up business turn over groove along its circumference on spliced pole (51), business turn over groove and business turn over are connected for sliding fit between pole (521), and business turn over groove and business turn over are connected with reset spring (522) between pole (521), contact plate (523) are installed to the outer end of business turn over pole (521), contact plate (523) are the arc structure.